Automatic Classifying of Cervical Cells Using Fourier Spectral Features

Thanatip Chankong
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引用次数: 1

Abstract

A method of automatically classifying cervical cells from Pap smear images using the Fourier Transform-based Features is proposed. To avoid the error occurred from the cell and nucleus segmentation process, we proposed the set of simplified features derived from the two-dimensional Fourier spectrum using the discrete Fourier transform. The features in the proposed method are obtained from the frequency components along the circle of radius centered at the center of the spectrum and the frequency components along the radial line having an angle. Each section of frequency components is divided into subsection. Mean value of each subsection are computed and used as the features for classification. The features are used to discriminate cells as a two-class problem to classify between the normal and abnormal cell. Classification experiments are conducted using 5-fold cross validation. The efficiency of four classifiers including K-nearest neighbor (KNN) support vector machine (SVM), Random Forest, and Adaptive Boosting (AdaBoost) are investigated. The performance of the proposed feature to classify the normal and abnormal cells show promising performance with accuracy of classification from all classifiers is more than 93%. SVM shows the best classification rate at 94.38%.
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基于傅立叶谱特征的宫颈细胞自动分类
提出了一种基于傅立叶变换特征的子宫颈细胞自动分类方法。为了避免细胞和细胞核分割过程中产生的误差,我们提出了利用离散傅里叶变换从二维傅里叶谱中得到的简化特征集。所提方法中的特征是由沿频谱中心为圆心的半径圆的频率分量和沿径向线具有一定角度的频率分量获得的。每一部分的频率分量都被分成分段。计算各分段的均值,并将其作为特征进行分类。这些特征被用来区分细胞,作为一个两类问题来区分正常细胞和异常细胞。分类实验采用5重交叉验证。研究了k -最近邻支持向量机(KNN)、随机森林和自适应增强(AdaBoost)四种分类器的分类效率。所提出的特征对正常细胞和异常细胞进行分类的性能显示出良好的性能,所有分类器的分类准确率均在93%以上。SVM的最佳分类率为94.38%。
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